EP0836718A1 - Procede et appareil de positionnement d'un moteur pas-a-pas pour un appareil de reproduction, d'enregistrement et/ou d'extraction de disques - Google Patents

Procede et appareil de positionnement d'un moteur pas-a-pas pour un appareil de reproduction, d'enregistrement et/ou d'extraction de disques

Info

Publication number
EP0836718A1
EP0836718A1 EP96918595A EP96918595A EP0836718A1 EP 0836718 A1 EP0836718 A1 EP 0836718A1 EP 96918595 A EP96918595 A EP 96918595A EP 96918595 A EP96918595 A EP 96918595A EP 0836718 A1 EP0836718 A1 EP 0836718A1
Authority
EP
European Patent Office
Prior art keywords
recording
playback
pull
transport device
motor
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP96918595A
Other languages
German (de)
English (en)
Inventor
Ulrich Pitz
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
NSM STORAGE GMBH
Original Assignee
NSM AG
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by NSM AG filed Critical NSM AG
Publication of EP0836718A1 publication Critical patent/EP0836718A1/fr
Withdrawn legal-status Critical Current

Links

Classifications

    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B19/00Programme-control systems
    • G05B19/02Programme-control systems electric
    • G05B19/18Numerical control [NC], i.e. automatically operating machines, in particular machine tools, e.g. in a manufacturing environment, so as to execute positioning, movement or co-ordinated operations by means of programme data in numerical form
    • G05B19/19Numerical control [NC], i.e. automatically operating machines, in particular machine tools, e.g. in a manufacturing environment, so as to execute positioning, movement or co-ordinated operations by means of programme data in numerical form characterised by positioning or contouring control systems, e.g. to control position from one programmed point to another or to control movement along a programmed continuous path
    • G05B19/40Open loop systems, e.g. using stepping motor

Definitions

  • the invention relates to a method for positioning a stepper motor of a computer-controlled transport device arranged between disk magazines for the reciprocation of a disk holder for disks designed as information carriers, in particular CD disks, between any receiving receptacles that receive the disks and / or a pull-out device of a playback and / or recording and / or output device for the disks arranged on the transport device and controlling the receiving compartments for the disk holders when the stepping motor is switched on or after a fault.
  • the invention relates to a playback and / or recording and / or output device for disks designed as information carriers, in particular CD disks, with opposing disk magazines which hold disk holders for at least one disk in horizontally superimposed receiving compartments, one between the computer-controlled transport device arranged in the plate magazines for optional and transporting a single plate holder with the plate between any receiving compartments, between a receiving compartment and at least one drive for reading or writing information from or onto the plate or between a receiving compartment or a drive and a plate loading / output - Drawer, and two pull-out devices for the plate holders that can be moved horizontally on the transport device.
  • a plate changing device is known from EP 0 138 005 B1, in which a vertically movable plate removal device is arranged between two vertical plate magazines storing plate plates with plates and carries a plate case gripper that can be moved horizontally on the plate magazine.
  • This record sleeve gripper is provided with two gripping devices, one of which is optionally in its standby position in the left or right disk magazine, while the other gripping device holds a removed disk case in the middle position, in which the disk is above the turntable of the player located.
  • the plate cover gripper only one gripping device of the plate cover gripper can assume a standby position for taking out a plate cover from the assigned plate magazine, ie if a plate cover is to be removed from the other plate magazine, then the plate cover gripper must first be directed in the direction of the latter Plate magazines are moved in order to bring the other gripping device into a standby position for removing a plate sleeve from the plate magazine assigned to it, which means an additional The path of travel of the plate cover gripper increases the transport time of the plate cover containing the desired plate from the plate magazine to the turntable of the playback unit.
  • EP 0 280 263 A2 discloses a disk player in which the disks are deposited in two stacks and can be played in two playback stations. The individual disks can be played from two sides. After playing, they are no longer put back in the same stack.
  • an endless conveyor belt is designed as a pull-out device. A plate can thus be removed from one of the two magazines without waiting time. The position of the pull-out device cannot be used to check the plate position with this device.
  • EP 0 439 483 B1 shows a disc player with two disc magazines lying opposite one another, with a transport device which can be moved in the stacking direction of the disc magazines to convey a disc holder back and forth with a disc between the disc magazines and a playback unit, and with two independently of one another controllable pull-out drawers that can be moved horizontally on the transport device facilities with one retractable and extendable gripper arm.
  • the pull-out devices which can be moved independently of one another, are each in a standby position for removing a plate holder for a plate, which is present in the assigned plate magazine, or the one pull-out device is moved into a central position in which it removes the plate removed from the associated plate magazine fixed with the disc holder concentrically to the turntable of the playback unit, while the other pull-out device remains in its standby position for the other disc magazine.
  • the invention has for its object to provide a method for positioning a stepper motor and a playback and / or recording and / or output device for disks of the type mentioned, which with a simple and compact structure extremely short travel paths of the pull-out devices for guaranteed all possible transport routes of a plate holder with a plate.
  • this object is achieved according to the invention in that the stepper motor is moved manually in the de-energized state to at least one vertical mechanical limitation of the movement range of the transport device or at least one horizontal mechanical limitation of the movement range of the pull-out device, the stepper motor in the current-carrying state Computer-controlled state at least one sensor located within the movement range of the transport device or the pull-out device for determining its absolute position is run over, and the path covered by the stepper motor is stored in a number of motor steps in a non-volatile memory.
  • the positioning of the stepping motor is expediently carried out separately for each sensor if there are at least two spaced sensors within the range of movement of the transport device or the pull-out device.
  • the controller controlling the playback and / or recording and / or output device decides which sensor is used to compare the determined motor steps.
  • the controller that controls the playback and / or recording and / or output device advantageously selects the sensor closest to the stepper motor in order to compare the determined motor steps.
  • control system is missing of the reproduction and / or recording and / or output device the distance of the at least two sensors in order to determine the total rotation range of the stepper motor in motor steps.
  • Knowledge of the total range of rotation of the stepper motor from the control of the playback and / or recording and / or output device is used for the calculation of the approach and braking distances of the stepper motor.
  • the range of motion of the transport device or the pull-out device corresponds to the respective rotating range of the stepping motor.
  • the process has several advantages. Manufacturing-related tolerances in the production of the playback and / or recording and / or output device are not included in the accuracy.
  • the one-time manual setting does not require any adjustment, but only a procedure in defined steps that are specified and monitored by the central computer unit. No measuring instruments or other aids are required. If necessary, the setting can also be carried out at the installation site of the playback and / or recording and / or output device.
  • the achievable accuracy is +2 motor steps.
  • the object is achieved in that after switching on the playback and / or recording and / or output device at least one between the vertical mechanical limits against the movement range of the transport device or the horizontal mechanical limits of the movement range of the pull-out device, the stepper motor passes the arranged sensor once and the quadrature decoder count read by a square decoder in the control of the playback and / or recording and / or output device is stored as a reference value, the quadrature decoder counter reading being ascertained by the quadrature decoder from the motor steps recorded by an encoder per revolution of the stepping motor. For this purpose, the quadrature decoder counter reading is evaluated before, during and after the movement of the transport device or the pull-out device.
  • the distance between the mechanical limits of the rotary range of the stepper motor and the sensor is measured in detail by means of the encoder, the stepper motor passing over the sensor and registering the quadrature decoder counter reading, the stepper motor switched off and the transport device or the pull-out device is moved manually to one of its respective limits and the quadrature decoder counter reading is determined, the resulting difference in the quadrature decoder counter sand calculates the distance in motor steps and this value is stored in a non-volatile memory.
  • the movement of the transport device or the pull-out device the step sequence indicated on the stepping motor is compared with the quadrature decoder counter reading, the stepping motor being switched off in the case of a difference greater than ⁇ 4 motor steps.
  • the actual position is calculated and compared with the target position specified by the control.
  • the switched-off stepper motor is put into operational readiness by energizing it with any phase and calculating the actual position from the quadrature decoder counter reading and transmitting it to the control of the playback and / or recording and / or output device.
  • the end of the swinging-out process of the transport device or of the pull-out device is determined in a periodic test after the movement or a re-energization of the stepping motor by falling below the change in the quadrature decoder counter reading by a certain amount.
  • the range of motion of the transport device or the pull-out device advantageously corresponds to the respective range of rotation of the stepping motor.
  • the precise knowledge of the positions of the transport device or the associated pull-out devices is of essential importance for the operation of the playback and / or recording and / or output device. If a malfunction occurs while the transport device is traveling or the transport device moves against an obstacle, this must be recognized under all circumstances. Otherwise, the assignment of the pull-out device to the storage compartments of the plate magazine is not guaranteed. This method ensures that every motor movement is recorded as long as the playback and / or recording and / or output device is switched on.
  • the quadrature decoder counter reading read is stored by the central computer unit as a reference value.
  • the quadrature decoder counter reading is evaluated before, during and after the journey of the transport device or the pull-out device. Different applications can occur:
  • the distance between the mechanical limits of the rotation range, which can also be designed as sensors, and the sensor can be measured using the optical two-phase encoder. This has the advantage that the principle-related error of +2 motor steps is eliminated.
  • the computing unit controls the passage of the sensor by the transport device or pull-out device and remembers the quadrature decoder counter reading (step 1).
  • the drive motor is switched off and the transport device or the pull-out device is pressed manually onto the bottom of the device housing or a lateral limitation (step 2).
  • the distance is stored in the memory of the central computer unit.
  • the actual position is calculated from the quadrature decoder counter reading and compared with the target position specified by the computer unit.
  • the actual position from the quadrature decoder counter reading is calculated as follows: Step 1: the drive motor is energized with any phase, Step 2: the quadrature decoder counter reading is assumed to be an approximate actual position, Step 3: the associated phase is calculated from the actual position, Step 4: the actual position is corrected for the deviation of the calculated phase from the phase actually created ( +2).
  • the last step is necessary in order to compensate for inaccuracies in the incremental position detection and deflections of the drive motor from the center of the pole due to an attacking torque. In this way, a measurement or position error of up to ⁇ 2 steps remains without effect on the calculated position.
  • a switched off drive motor is made ready to drive again by energizing it with any phase (step 1) and calculating the actual position from the quadrature decoder counter reading, as explained above, and transferring it to the central computer unit (step 2).
  • the drive motor is thus ready for operation without traveling to the sensor.
  • the end of the swinging-out process of the drive of the transport device or pull-out device after the end of the trip or a re-energization is indicated by falling below the quadrature Decoder counter reading change determined by a specified amount in a periodic check.
  • the task of the present invention is achieved in that, in order to monitor the drive motor of the transport device or the pull-out device, the latter is connected to an incremental encoder for incremental position detection of the drive motor.
  • the drive motor of the transport device or the pull-out device is expediently a four-phase stepper motor.
  • the incremental encoder consists of an optical two-phase encoder, a code disk, a quadrature decoder and at least one sensor.
  • the code disk is advantageously a slot disk and provided with 100 slots.
  • the quadrature decoder is also provided for evaluating the optical two-phase encoder.
  • a sensor is assigned to the transport device or the pull-out device to determine the absolute position. This is provided to determine the lower initial position of the transport device or to determine a lateral initial position of the pull-out device.
  • the quadrature decoder can be part of the central computer unit of the playback and / or recording and / or output device.
  • the code disk is arranged on the motor axis and the optical two-phase encoder is arranged on the housing of the drive motor.
  • the transport device is slidably mounted on two guide rods running parallel to one another and vertically and can be moved up and down via at least one belt drive with a reversible drive motor.
  • One of the guide rods of the transport device is rotatably mounted, and this guide rod is for converting its rotary movement into a displacement movement of the slide of the pull-out device, on the one hand via a rotatable, non-rotatable gearwheel with the toothed belt of the belt drive coupled to the slide, and on the other hand via one additional belt drive connected to the drive motor for the sled.
  • the rotatable guide rod is connected via a further belt drive to the rotatable code disk, which interacts with sensors generating position pulses to determine the position of the pull-out device.
  • the playback and / or recording and / or output device enables a simple and convenient Compact construction extremely short travel paths of the transport device and the pull-out device for all possible transport paths of a plate holder with a plate.
  • FIG. 2 shows a side view of the reproduction and / or recording and / or output device according to FIG. 1;
  • 3a to 3c in each case a cross section through the playback and / or recording and / or output device according to FIG. 1 in different positions of the pull-out device of the transport device for a disk holder; 4: a partially cut-out bottom view of the playback and / or recording and / or output device according to FIG. 1;
  • FIG. 7 another embodiment of the representation according to FIG. 4;
  • the playback / recording and output device for disks 1 has a housing 2 with a double door 3 attached to the front side.
  • Two opposite plate magazines 4 are arranged laterally in the lower region of the housing 2.
  • a further interchangeable plate magazine 4 is located above the left plate magazine 4, while a tower consisting of four interchangeable drives 5 is provided above the right plate magazine 4.
  • the drives 5 are used to read or write information from or onto a disk 1.
  • the space between the plate holders 7 is smaller than the thickness of the plate 1 inserted in the plate holder 7.
  • the thickness of the plate holder 7 is only slightly larger than the thickness of the plate 1.
  • the plate 1 has a thickness of approximately 1 , 2 mm and the plate holder 7 a thickness of about 2.8 mm. This results in an extremely low height for a plate magazine 4 with fifty plate holders 7 stacked one on top of the other.
  • the plate holder 7 is secured in its position by two spring elements 8 arranged opposite one another on the plate magazine 4.
  • the plate holder 7 protrudes by clearing the corresponding side wall of the plate magazine 4 so far above the pull-out side of the plate magazine 4 that it is opened by one of the two pull-out devices 9 in the space between the plate magazines 4 and the drives 5. and movable transport device 10 for which a plate holder 7 can be gripped.
  • the plate holder 7 In the extended position of the plate loading / unloading drawer, the plate holder 7 remains positively controlled in the drawer 11, ie the plate holder 7 cannot be removed from the drawer 11 when a plate 1 is being input or output. All functions of the device are controlled via an internal computer unit 13 arranged above the plate loading / output drawer 11, which is equipped with an on / off switch 14, a door opener 15, a key switch 16, a display 17 and a loading device. serves buttons panel 18 is
  • the two pull-out devices 9, which can be moved horizontally on the transport device 10, can at the same time be moved in opposite directions, crossing each other, namely between a standby position for removing a specific plate holder 7 with the desired plate 1 from the corresponding plate magazine 4 or the corresponding drive 5 or from the plate loading / output drawer 11 and one Transport device position for removing the plate holder 7 from the transport device 10.
  • Both the pull-out devices 9 are not in engagement with the plate holder 7 either in the standby position or in the transport device position. In these positions, however, the pull-out devices 9 can each be brought into an engagement position with the plate holder 7.
  • Each pull-out device 9 comprises a slide 21, which is slidably guided on a horizontal support rod 19 and provided with a retractable and extendable gripping slide 20 for a plate holder 7.
  • the plate holder 7 has a recess 22 on its longitudinal sides in the front area, the gripper slide 20 of the corresponding slide 21 can engage in the position of the plate holder 7 in the receiving compartment 6 of the respective plate magazine 4 or in the transport device 10.
  • the slide 21 assigned to the right plate magazine 4 is attached to the front tower 23 and the slide 21 assigned to the left plate magazine 4 is attached to the rear tower 24 of a belt drive 40 coupled to a reversible drive motor 25.
  • each guide rod 26, 26a is laterally assigned a belt 28 of a belt drive 29 running parallel to it and guided over deflection rollers 27, each belt 28 being connected to the transport device 10 via a clamping bracket 30.
  • the lower pulleys 27 are over an axis 32 accommodated in bearings 31 is coupled to one another.
  • the axis 32 carries a further deflection roller 33 for a belt 34, which is connected to the drive wheel 35 of a reversible drive motor 36.
  • a sensor 38 which is arranged on a printed circuit board 37 and is designed as a fork coupler, into which a web 39 attached to the underside of the transport device engages in the lower position of the transport device 10.
  • Both guide rods 26, 26a of the transport device 10 are rotatably mounted.
  • a gear 42 is slidably and non-rotatably connected to the toothed belt 43 of the belt drive 40 coupled to the carriage 21.
  • This gear 42 is opposite a gear 44 which is fixedly mounted on the transport device 10 and which serves as a deflection roller for the toothed belt 43.
  • the right guide rod 26 carries a non-rotatable gear 44 for a further belt drive 45, which cooperates with the drive wheel 46 of the reversible drive motor 25. Furthermore, the right guide rod 26 is connected at the lower end via a further belt drive 47 to a code disk 49 mounted on an axis 48, to which two sensors 50 designed as fork couplers and attached to the printed circuit board 37 are assigned.
  • the standby position and the transport device position of the slide 21 of the pull-out device 9 can be monitored with the aid of these position pulse generating sensors 50.
  • the retracting and extending movement of the gripping slides 20 of the slides 21 of the pull-out device 9 is controlled by a switchable slide control 51.
  • the link control 51 is designed such that when the carriage 21 moves in opposite directions from the ready position or from the transport device position, either the gripper slide 20 of the right or left carriage 21 forcibly transitions into the engagement position with the plate holder 7.
  • the gripping slides 20 are bent in opposite directions in the front area.
  • the carriage 21 can move the front regions of the gripper slides 20 in one plane, ie an extended gripper slider 20 also transports them, in the event of a countercrossing movement of the slide 21, in which a gripper slide 20 is always in the extended position due to the link control 51 a plate holder 7 in its front area, while the front area of the other retracted gripper slide 20 moves in the opposite direction behind the front area of the extended gripper slide 20.
  • a rectangular support arm 53 for receiving a plate holder 7 is located on the housing 52 of the transport device 10.
  • the upper side of the support arm 53 is designed as a self-contained cover 54 for the underlying plate holder 7 with the associated plate 1.
  • the cover 54 serves as dust protection.
  • the cover 54 for observing the plate 1 is designed as a transparent disk 55.
  • the light beam runs through the disk 55 as a light barrier trained, stationary sensor for determining the actual presence of a plate 1 in the plate holder 7.
  • the transport device 10 moves from its starting position to a height which corresponds to the height of the receiving compartment 6 right plate magazine 4 coincides, in which the plate holder 7 lies with the plate to be transported.
  • the gripping slides 20 of the slides 21 of the pull-out devices 9 are in the standby position (see FIG. 5a). Then the gripping slide 20, which is assigned to the plate holder 7 with the inserted plate 1, is brought into engagement with the corresponding recess 22 of the plate holder 1 (see FIGS. 5b and 3a).
  • the two gripping arms 20 then execute a synchronous, opposite movement until the plate holder 7 with the plate 1 has reached its end position in the transport device 10 (cf. FIG. 5c). Then the gripping slide 20, which is engaged with the plate holder 7, is brought out of engagement with the plate holder 7, as a result of which both gripping slides 20 are now in the transport device position (see FIG. 5d). Now the gripping slide 20, which was not previously engaged with the plate holder 7, is brought from its transport device position into an engagement position with the facing recess 22 of the plate holder 7 (see Fig. 5e). Now the gripping slides 20 again perform an opposite, synchronous, intersecting movement until the plate holder 7 with the plate 1 has reached its end position in the left plate magazine 4 (see FIGS.
  • the following steps can take place in succession when changing a plate holder 7 with inserted plate 1 from the right plate magazine 4 to the left plate magazine 4:
  • the gripping slide 20 assigned to the right plate magazine 4 is turned off the standby position (see FIG. 6a) with the plate holder 7 selected in this plate magazine 4 is brought into engagement with the associated plate (see FIG. 6b).
  • the gripping slides 20 execute an opposite synchronous movement until the plate holder 7 with the plate 1 has reached its end position in the transport device 10 (cf. FIG. 6c).
  • the other gripping slide 20 with the plate holder 7 is also brought into an engagement position with the plate shark. ter 7 transferred (see FIG. 6d).
  • the gripper slide 20 which is first brought into engagement with the plate holder 7, is brought out of engagement with the plate holder 7 (see FIG. 6e). Now the gripper slides 20 again perform an opposing, intersecting movement until the plate holder 7 with the plate 1 has reached its end position in the left plate magazine (see FIG. 6f). The right gripper slide 20 is then disengaged from the plate holder 7, as a result of which both gripper slides 20 return to their standby position (see FIG. 6g). In this case, a gripper slide 20 is always engaged with the plate holder 7 when the plate holder 7 is being transported.
  • the internal computer 13 of the playback and / or recording and / or output device comprises a central processing unit 56, a BIOS unit 57, a RAM 58 and an interface 59 to an external computer (not shown) with which the internal computer 13 communicates what is indicated by the double arrow 60.
  • Another interface 61 is for connection to a number of drives 5 1; 5 2 , ... 5 N , each with interfaces 62 l7 62 2 , ... 62 N.
  • the interface 61 is connected to the interfaces G2 1 , 62 2 ... 62 N via a line 63 and branch lines 64- L , 64 2 ,... 64 N.
  • the internal computer 13 also includes a further interface 64, via which it is connected to the transport device 10 by means of a line 65.
  • the interfaces 59, 61 64 of the internal computer 13 are via lines 65, 66, 67 and a line 68 and lines 69, 70, 71 with the central processing unit 56, the BIOS unit 67 and the RAM 68 in connection.
  • a buffer 72 is integrated with the internal computer 13 and is connected to the corresponding units of the internal computer 13 via a line 73.
  • the buffer 72 can be designed as a hard disk or CD-ROM.
  • the internal computer 13 controls and monitors the entire device and carries out the communication with the external computer. Furthermore, it also manages the intermediate storage 72. Externally, the number of drives 5 X , 5 2 ,...
  • 5 N for the external computer is a single drive with a large, but contiguous table of contents
  • the software of the external computer only has to branch to another directory to access the individual disks 1.
  • the operations, such as changing the disk, data retrieval, etc., are carried out by the internal computer 13, for which purpose the transport device 10 is used.
  • the internal computer 13 of the playback and / or recording and / or output device contains an incremental encoder 74 for incremental position detection of the drive motor 25 of the pull-out device 9 and the drive motor 36 of the transport device 10.
  • the incremental encoder 74 is made up of an optical two-phase encoder, a code disk 49, a quadrature decoder and the sensor 38.
  • the quadrature decoder is part of the central computer unit 13 of the playback and / or recording and / or output device . Positions are located within the range of rotation of the drive motor 25 for the pull-out device 9 or the drive motor 36 for the transport device 10, which positions are to be approached during normal operation of the playback and / or recording and / or output device.
  • the positions have a structurally determined distance from at least one boundary, which are formed, for example, by the sensors 50. If the absolute position of the drive motor 25 or 36 is known to the central computer unit 13, each position can be approached step by step within the rotation range. After switching on the drive motor 25 or 36 or after a fault, the central computer unit 13 does not know the absolute position of the drive motor 25 or 36 and must first be determined. If the sensor 38 is attached to any position within the rotary range of the drive motor 25 or 36, it divides the rotary range into two sections, namely transport device: below / above or pull-out device: outside / inside, and its distance at least If one of the sensors 50 is known, the central computer unit 13 can adjust itself when the sensor 38 is passed over and thus knows the absolute position of the drive.
  • the distance between the sensor 38 and the sensors 50 is unknown after the reproduction and / or recording and / or output device has been manufactured and must be measured in a one-time setting process.
  • the drive motor 25 or 36 is turned manually to one of the sensors 50 of the rotation range in the de-energized state.
  • the central computer unit 13 then controls the passage of the sensor 38 by the corresponding transport device 10 or pull-out device 9.
  • the distance traveled in motor steps is stored in the non-volatile memory 72 of the central computer unit 13.
  • the pull-out device 9 has a sensor 50 in the vicinity of the right and left limits of the rotation range of the drive motor 25.
  • the setting is carried out separately for each sensor 50.
  • the central computer unit 13 decides on a case-by-case basis at which sensor 50 it compares its count. This has the advantage that the drive motor 25 does not have to travel through the entire rotational range when determining the absolute position, but only up to the nearest sensor 50. If the manual setting has been carried out, the computer unit 13 also measures the distance between the sensors 50. which results in the total turning range in motor steps. The knowledge of the total range of rotation is used by the computer unit 13 for calculating the starting and braking curves of the drive motor 25.
  • a sensor 50 is provided in the vicinity of the lower floor of the playback and / or recording and / or output device.
  • the manual setting is limited to pushing the transport device 10 down.

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  • Engineering & Computer Science (AREA)
  • Human Computer Interaction (AREA)
  • Manufacturing & Machinery (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Automation & Control Theory (AREA)
  • Automatic Disk Changers (AREA)

Abstract

L'invention concerne un appareil décrit de reproduction, d'enregistrement et/ou d'extraction de disques conçus comme supports d'informations, comprenant des magasins opposés (4) de disques qui reçoivent, dans des compartiments (6) superposés dans le sens horizontal, des supports (7) pour au moins un disque (1) et un dispositif de transport (10) commandé par ordinateur situé entre les magasins de disques (4) et pourvu de deux éléments horizontalement mobiles de déplacement (7) des supports (7) de disques. Afin de surveiller le moteur d'entraînement (25; 26) du dispositif de transport (10) ou de l'élément de déplacement (9), le moteur d'entraînement (25; 26) est relié à un générateur de signaux incrémentiels (74) qui détecte par incréments la position du moteur d'entraînement (25; 36) et qui permet le positionnement du dispositif de transport (10) ou le dispositif de sortie (9) de manière automatique et précise.
EP96918595A 1995-07-03 1996-06-17 Procede et appareil de positionnement d'un moteur pas-a-pas pour un appareil de reproduction, d'enregistrement et/ou d'extraction de disques Withdrawn EP0836718A1 (fr)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
DE19524136A DE19524136A1 (de) 1995-07-03 1995-07-03 Verfahren zum Positionieren eines Schrittmotors für ein Wiedergabe- und/oder Aufzeichnungs- und/oder Ausgabegerät für Platten und ein solches Gerät hierzu
DE19524136 1995-07-03
PCT/DE1996/001093 WO1997002515A1 (fr) 1995-07-03 1996-06-17 Procede et appareil de positionnement d'un moteur pas-a-pas pour un appareil de reproduction, d'enregistrement et/ou d'extraction de disques

Publications (1)

Publication Number Publication Date
EP0836718A1 true EP0836718A1 (fr) 1998-04-22

Family

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Family Applications (1)

Application Number Title Priority Date Filing Date
EP96918595A Withdrawn EP0836718A1 (fr) 1995-07-03 1996-06-17 Procede et appareil de positionnement d'un moteur pas-a-pas pour un appareil de reproduction, d'enregistrement et/ou d'extraction de disques

Country Status (8)

Country Link
US (1) US6020705A (fr)
EP (1) EP0836718A1 (fr)
JP (1) JPH11508720A (fr)
AU (1) AU6121096A (fr)
DE (1) DE19524136A1 (fr)
TW (1) TW393637B (fr)
WO (1) WO1997002515A1 (fr)
ZA (1) ZA965559B (fr)

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CN1129867C (zh) * 2000-03-17 2003-12-03 杭州中正生物认证技术有限公司 指纹硬盘

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Also Published As

Publication number Publication date
ZA965559B (en) 1997-01-29
AU6121096A (en) 1997-02-05
JPH11508720A (ja) 1999-07-27
US6020705A (en) 2000-02-01
DE19524136A1 (de) 1997-01-09
TW393637B (en) 2000-06-11
WO1997002515A1 (fr) 1997-01-23

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